I have a simple question. I have defined a struct, and I need to inititate a lot (in the order of millions) of them and loop over them.

I am initiating one at a time and going through the loop as follows:

using Distributions

mutable struct help_me{Z<:Bool}

for i in 1:max_iter
    tmp_help = help_me(rand(Bernoulli(0.5),1)[1],rand(Bernoulli(0.99),1)[1])
    # many follow-up processes 

The memory allocation scales up in max_iter. For my purpose, I do not need to save each struct. Is there a way to "re-use" the memory allocation used by the struct?

  • 2
    Question 1: why are you doing Z<:Bool? Bool is already a concrete type? Question 2: any reason help_me needs to be mutable? immutable structs are often cheaper. also passing a rng explicitly into rand can give you an easy 2x speedup. (due to multithreading safety reasons) Dec 22, 2020 at 5:33
  • Hi Osca, thanks you for questions. 1. Did not know. Thanks. 2. It might not be actually. Thanks. I am still working out processes that each agent needs to go through. 3. Did not know. Thanks. Any solution to the memory allocation problem?
    – manuka
    Dec 22, 2020 at 5:36
  • 3
    I think making the struct not mutable would fix this. immutable objects can be stack allocated (in most cases), so creating and destroying them should end up being basically free. Dec 22, 2020 at 5:43

2 Answers 2


Your main problem lies here:

rand(Bernoulli(0.5),1)[1], rand(Bernoulli(0.99),1)[1]

You are creating a length-1 array and then reading the first element from that array. This allocates unnecessary memory and takes time. Don't create an array here. Instead, write

rand(Bernoulli(0.5)), rand(Bernoulli(0.99))

This will just create random scalar numbers, no array.

Compare timings here:

julia> using BenchmarkTools

julia> @btime rand(Bernoulli(0.5),1)[1]
  36.290 ns (1 allocation: 96 bytes)

julia> @btime rand(Bernoulli(0.5))
  6.708 ns (0 allocations: 0 bytes)

6 times as fast, and no memory allocation.

This seems to be a general issue. Very often I see people writing rand(1)[1], when they should be using just rand().

Also, consider whether you actually need to make the struct mutable, as others have mentioned.

  • Thanks. Much appreciated.
    – manuka
    Dec 22, 2020 at 18:56

If the structure is not needed anymore (i.e. not referenced anywhere outside the current loop iteration), the Garbage Collector will free up its memory automatically if required.

Otherwise, I agree with the suggestions of Oscar Smith: memory allocation and garbage collection take time, avoid it for performance reasons if possible.

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